Relative fitness of wild-type and phage-resistant pyomelanogenic P. aeruginosa and effects of combinatorial therapy on resistant formation.

IF 3.4 3区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Heliyon Pub Date : 2024-11-02 eCollection Date: 2024-11-15 DOI:10.1016/j.heliyon.2024.e40076
Aarcha Shanmugha Mary, Nashath Kalangadan, John Prakash, Srivignesh Sundaresan, Sutharsan Govindarajan, Kaushik Rajaram
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Abstract

Bacteriophages, the natural predators of bacteria, are incredibly potent candidates to counteract antimicrobial resistance (AMR). However, the rapid development of phage-resistant mutants challenges the potential of phage therapy. Understanding the mechanisms of bacterial adaptations to phage predation is crucial for phage-based prognostic applications. Phage cocktails and combinatorial therapy, using optimized dosage patterns of antibiotics, can negate the development of phage-resistant mutations and prolong therapeutic efficacy. In this study, we describe the characterization of a novel bacteriophage and the physiology of phage-resistant mutant developed during infection. M12PA is a P. aeruginosa-infecting bacteriophage with Myoviridae morphology. We observed that prolonged exposure of P. aeruginosa to M12PA resulted in the selection of phage-resistant mutants. Among the resistant mutants, pyomelanin-producing mutants, named PA-M, were developed at a frequency of 1 in 16. Compared to the wild-type, we show that PA-M mutant is severely defective in virulence properties, with altered motility, biofilm formation, growth rate, and antibiotic resistance profile. The PA-M mutant exhibited reduced pathogenesis in an allantoic-infected chick embryo model system compared to the wild-type. Finally, we provide evidence that combinatory therapy, combining M12PA with antibiotics or other phages, significantly delayed the emergence of resistant mutants. In conclusion, our study highlights the potential of combinatory phage therapy to delay the development of phage-resistant mutants and enhance the efficacy of phage-based treatments against P. aeruginosa.

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野生型铜绿假单胞菌和耐噬菌体型铜绿假单胞菌的相对适应性以及联合疗法对耐药性形成的影响。
噬菌体是细菌的天敌,是对抗抗菌药耐药性(AMR)的有力候选者。然而,噬菌体抗药性突变体的快速发展对噬菌体疗法的潜力提出了挑战。了解细菌适应噬菌体捕食的机制对于基于噬菌体的预后应用至关重要。使用抗生素优化剂量模式的噬菌体鸡尾酒和组合疗法可以阻止噬菌体抗性突变的发展并延长疗效。在本研究中,我们描述了一种新型噬菌体的特征以及在感染过程中产生的噬菌体抗性突变体的生理学特征。M12PA 是一种具有肌病毒科形态的绿脓杆菌感染噬菌体。我们观察到,铜绿假单胞菌长期暴露于 M12PA 会导致抗噬菌体突变体的产生。在抗性突变体中,产生焦褐藻素的突变体(命名为 PA-M)的频率为 1/16。与野生型相比,我们发现 PA-M 突变体在毒力特性方面存在严重缺陷,其运动性、生物膜形成、生长速度和抗生素耐药性特征都发生了改变。与野生型相比,PA-M 突变体在尿囊炎感染的小鸡胚胎模型系统中表现出较低的致病性。最后,我们提供的证据表明,将 M12PA 与抗生素或其他噬菌体结合使用的联合疗法可显著延缓耐药突变体的出现。总之,我们的研究强调了噬菌体联合疗法在延缓噬菌体抗性突变体的发展和提高噬菌体疗法对铜绿假单胞菌的疗效方面的潜力。
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来源期刊
Heliyon
Heliyon MULTIDISCIPLINARY SCIENCES-
CiteScore
4.50
自引率
2.50%
发文量
2793
期刊介绍: Heliyon is an all-science, open access journal that is part of the Cell Press family. Any paper reporting scientifically accurate and valuable research, which adheres to accepted ethical and scientific publishing standards, will be considered for publication. Our growing team of dedicated section editors, along with our in-house team, handle your paper and manage the publication process end-to-end, giving your research the editorial support it deserves.
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